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The Bently Nevada 330103-00-10-10-02-05, also cataloged as the 330103 Proximity Probe, operates as a dedicated hardware component for eddy-current displacement and vibration sensing within 3300 XL Proximity Transducer System platforms.

Suffix Breakdown & Model Matrix

Option Slot Configured Code Technical Definition
Unthreaded Length Option 00 0 mm
Overall Case Length Option 10 100 mm
Total Length Option 10 1.0 meter (3.3 feet)
Connector and Cable-Type Option 02 Miniature coaxial ClickLoc connector, standard cable
Agency Approval Option 05 CSA, ATEX, IECEx Approvals

Hardware Specifications

Parameter Specification
Model 330103-00-10-10-02-05
Brand Bently Nevada
Origin U.S.A.
Probe Tip Diameter 8 mm
Probe Tip Material Polyphenylene sulfide (PPS)
Probe Case Material AISI 303 or 304 stainless steel (SST)
Pressure Sealing Viton O-ring differential pressure tip-to-case seal
Unthreaded Length 0 mm
Overall Case Length 100 mm
Total Length 1.0 meter (3.3 feet)
Connector Type Miniature coaxial ClickLoc connector
Cable Type Standard cable
Operating Temp -51 to +177 deg C
Power Consumption Passive hardware element driven by Proximitor Sensor
Dimensions M10 x 1 threaded body
Weight 0.323 kg (Net), 1.5 kg (Shipping Weight)

Eddy-Current Probe Scaling and Rotor Dynamics

The 3300 XL 8 mm proximity probe utilizes eddy-current probe scaling to convert physical gap distances into proportional electrical voltage. When paired with a compatible 3300 XL Proximitor Sensor, the system allows precise gap voltage validation with a nominal target of -10 VDC at the center of the linear range. This electrical configuration minimizes cross-talk suppression issues when multiple probes are installed in close physical proximity along the machine casing. The resulting high-frequency signal output enables accurate profiling of rotor dynamics, including dynamic shaft vibration, position, and axial thermal growth.

Frequently Asked Questions

Q: How is the gap voltage validation target verified under static conditions?

A: Connect a digital multimeter to the "OUT" and "COM" terminals of the associated Proximitor Sensor. Mechanically adjust the probe position via the M10 threads until the multimeter reads the standard -10 VDC target, indicating the electrical center of the eddy-current probe scaling.

Q: What are the electrical consequences of field-modifying the 1.0 meter integrated cable?

A: Trimming or splicing the integrated coaxial cable alters the factory-tuned high-frequency impedance of the RF loop. This disruption degrades the accuracy of the eddy-current probe scaling and compromises any subsequent tracking of dynamic rotor dynamics.

Field Installation Guidelines

  • Mechanical Torque Constraints: Tighten the AISI 303/304 stainless steel probe body into the mounting bracket using a calibrated torque wrench. Do not exceed standard engineering limits for 8 mm sensors to prevent damage to the PPS tip.
  • Coaxial Connector Isolation: Keep the miniature coaxial ClickLoc connector interface dry and free of lubricants or water. Apply specialized connector boots or self-fusing insulation tape over the terminal junction.
  • Cable Bend Curvature Limits: Route the standard cable maintaining a minimum bend radius that satisfies industrial standard limits. Avoid sharp angles or pinching which degrades the RF shielding layers and introduces noise.
  • Target Track Parameters: Ensure the shaft observation path is flat and matches the calibrated target alloy specification to maintain linear scaling execution.

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